Tomasz Kulik, Kinga Treder, Marta Rochoń, Dariusz Załuski, Paweł Sulima, Jacek Olszewski, Katarzyna Bilska, Georgina Elena, Tadeusz Kowalski
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引用次数: 0
摘要
植物病原体在作物残留物上的生存和生长是促进作物病害动态发展的关键因素。病原真菌的孢子(如包囊和衣壳孢子)和菌丝体在秸秆等收获残留物上越冬,成为下一个生长季节感染作物的初始接种体。因此,以越冬真菌为目标是实现有效病害控制的关键。有益微生物具有定殖和利用不同环境壁龛的能力,因此在控制病原体方面具有优势。在本研究中,我们采用 qPCR 分析方法探讨了当地分离的 Clonostachys 菌株对各种镰刀菌病原体的生物防治性能。我们证明,蔷薇木腐菌能有效减少镰刀菌属在小麦秸秆上的先期定殖。我们证明,对于大多数研究菌株而言,无论目标病原体和病原体在基质中的定殖水平如何,蔷薇赤霉降低镰刀菌接种物的效率似乎都保持在相似的水平。本地 C. rosea 菌株的高效表现为未来控制谷物镰刀菌病害的策略确定了可能的目标。我们的研究还凸显了基于序列测定 C. rosea 所面临的挑战,这对于高效筛选有益菌株用于生物防治至关重要。
Measurement of the effectiveness of Clonostachys rosea in reducing Fusarium biomass on wheat straw
The survival and growth of plant pathogens on crop residues are key factors facilitating the dynamics of crop diseases. Spores (e.g., perithecia, and chlamydospores) and mycelium of pathogenic fungi overwinter on harvest residues, such as straw, and serve as initial inoculum infecting crops in the next growing season. Therefore, targeting overwintering fungi is essential to attaining effective disease control. Beneficial microorganisms offer advantages in controlling pathogens through their ability to colonize and exploit different environmental niches. In this study, we applied qPCR assays to explore the biocontrol performance of locally isolated strains of Clonostachys against various Fusarium pathogens. We proved that prior colonization of wheat straw by Fusarium spp. can be effectively reduced by Clonostachys rosea. We demonstrated that the efficiency of C. rosea to reduce Fusarium inoculum appears to remain at a similar level for most studied strains regardless of the target pathogen and the level of colonization of substrates by pathogens. Efficient performance of local C. rosea strains identifies possible targets for future strategies to control Fusarium diseases in cereals. Our study also highlights the challenge in sequence-based determination of C. rosea, which is crucial for the efficient selection of beneficial strains for biocontrol purposes.